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Laser marking machine rotary axis marking

by:Leadtech Coding     2022-03-15

The laser editor will share with you today: laser marking machine rotary axis marking is often used in the laser marking process. After turning on the 'Rotation Axis Marking' option, the software will pop up a dialog box as shown in the figure below:

The parameters that need to be paid attention to: Workpiece diameter: After left-clicking, a dialog box will pop up. Fill in according to the workpiece diameter. Focal length: After left-clicking, a dialog box will pop up, which needs to be filled in according to the focal length of the F-θ lens. Note: These two parameters directly affect the marking effect. There are two ways to set the marking size: 1. Use even division, and control the size of each marking size by setting the division size. (Be careful not to check the 'Split by dividing line' column, otherwise the software will divide by dividing line.) 2 Use dividing line to divide. After checking, the software will mark according to the dividing line. Left-click twice in the marking content column to draw a dividing line, and right-clicking near the dividing line will cancel the dividing line. The dividing line is in the same direction as the rotation axis.

'Movement step' refers to the distance to be moved when the user presses the keyboard to move the extension axis each time relative to the platform movement, and refers to the circular distance of the movement relative to the rotation axis movement. Press the Pageup key to increase the motion step size, and press the Pagedown key to decrease the motion step size. When the extended axis is the X axis, pressing the CTRL+Left key on the keyboard once can move the extended axis X to the left by a distance of the current step; pressing the CTRL+Right key on the keyboard once can make the extended axis X move to the right by the current step distance. When the extension axis is the Y axis, pressing the CTRL+Down key on the keyboard once can make the extension axis Y move down a distance of the current step; pressing the CTRL+Up key on the keyboard once can make the extension axis Y move up a distance of the current step . When the extension axis is the Z axis, pressing the CTRL+Down key on the keyboard once can make the extension axis Z move down a distance of the current step; pressing the CTRL+Up key on the keyboard once can make the extension axis Z move up a distance of the current step . 'Parts': The display box is gray, that is, the display cannot be changed manually. It indicates the number of workpieces currently processed, which changes automatically with the computer. The 'R' button behind it is the reset button. 'Total': When using 'Select processing, the total number of processing is limited. When the processing number reaches the requirement, the software automatically stops processing. 'Continuous processing' Checking this item means that the software will continue processing until it is manually stopped. 'Select 'Processing' is checked to indicate that the software only processes the content selected in the display box. After clicking the parameter, the following dialog box will appear:

Function definition of each parameter Enable: enable the current expansion Axis, if this item is selected, it means that the expansion axis is available. ID: Set the axis number corresponding to the current expansion axis. When the ID is X, the system performs the puzzle processing in the X axis direction. When the ID is Y, the puzzle processing in the Y axis direction. Pulse per revolution Number: the number of pulses required for one rotation of the extended shaft motor. Through the following formula, we can calculate the number of pulses per revolution required by the software X: Xu003d(360/N) * n where X represents the number of pulses per revolution; N Indicates the step angle of the motor we use; n represents the number of subdivisions set by the driver; Z small coordinate: the Z small logical coordinate that the extended axis can move to. When the target coordinate of the extended axis movement is smaller than the Z small logical coordinate The system will prompt that the processing range is exceeded. Z coordinate: the Z largest logical coordinate that the extended axis can move to. When the target coordinate of the extended axis movement is greater than the Z largest logical coordinate, the system will prompt that the processing range is exceeded. Z small speed: the extended axis can move The Z minimum speed. Z maximum speed: the maximum speed that the expansion axis can move. Acceleration time: the time it takes for the expansion axis to accelerate from the Z minimum speed to the Z maximum speed. End return to the starting point: when the processing is completed, let the expansion The axis moves back to the position where the platform was before processing. Speed: After the processing is completed, the speed at which the expansion axis moves back to the starting processing point before processing. Zero point: Whether the current expansion axis has a zero signal. When the expansion axis does not enable the zero point signal, the expansion axis cannot establish an absolute coordinate system, so when processing a batch of workpieces, it is necessary to manually adjust the position so that each processing is processed at the same position. Before the next machining, the current position of the extension axis is taken as the default origin position. When the machining of a workpiece is completed, the system will automatically move the extension axis back to the position before machining, so that each workpiece will be at the same position. Speed u200bu200bof returning to zero: The movement speed of the extended axis when looking for the zero point signal. Zero offset: the distance from the zero point after the current extended axis finds the zero point signal. Zero return timeout: Set the time used by the extended axis to find the zero point, if it exceeds this time, the system will Prompt 'zero return timeout'. Accurate Zero (accurate zero return): After checking, it needs to receive three signals when returning to zero to successfully return to zero. When it is not checked, receiving one signal will end the return to zero.


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